徐婧莎
个人信息
职称:
所在科研平台:物化平台
办公地点:科研一号楼2022
电子邮箱:xujingsha@zfau.cn; jingshaxu1@gmail.com
研究方向:大气化学、大气气溶胶特性与源解析、大气气溶胶健康与气候影响
个人简介
徐婧莎,主要研究方向为大气化学、气溶胶特性与源解析、大气气溶胶健康与气候影响等。入选2023年度国家级人才计划及2022年度杭州市海外高层次人才计划。本科毕业于武汉大学,博士毕业于诺丁汉大学,先后在英国伯明翰大学与华威大学从事科研工作,参研国家重点研发计划2项、主持浙江省自然科学基金重点项目1项。曾获全国气溶胶大会优秀报告奖,获国家发明专利1项,发表SCI收录国际学术期刊论文20余篇(平均IF>7)。以第一作者/通讯作者身份发表SCI论文11篇。
主持或参加的科研项目
[1]基于可控环境条件下的航空燃料燃烧排放特性与二次演化机理研究,浙江省自然科学基金重点项目,2024.01-2026.12,经费30万元、主持;
[2]机场飞行区绿色运行环境治理技术,国家重点研发计划,2023.03-2026.02,经费7000万元、参与;
[3]高灵敏度大动态范围微电流计,国家重点研发计划,2022.11-2025.10,经费1100万元、参与;
代表性论著
[1] Chen, K., Xu, J., Famiyeh, L., Sun, Y., Ji, D., Xu, H., Wang, C., Metcalfe, S. E., Betha, R., Behera, S. N., Jia, C., Xiao, H., He, J. 2022. Chemical constituents, driving factors, and source apportionment of oxidative potential of ambient fine particulate matter in a Port City in East China. Journal of Hazardous Materials, 440, 129864. doi:https://doi.org/10.1016/j.jhazmat.2022.129864
[2] Xu, J., Li, M., Marzullo, B., Wootton, C. A., Barrow, M. P., & O’Connor, P. B. 2022. Fine Structure in Isotopic Peak Distributions Measured Using Fourier Transform Ion Cyclotron Resonance Mass Spectrometry: A Comparison between an Infinity ICR Cell and a Dynamically Harmonized ICR Cell. Journal of the American Society for Mass Spectrometry, 33(8), 1499-1509. doi:10.1021/jasms.2c00093
[3] Zhu, Y., Li, W., Wang, Y., Zhang, J., Liu, L., Xu, L., Xu, J., Shi, J., Shao, L., Fu, P., Zhang, D., & Shi, Z. 2022. Sources and processes of iron aerosols in a megacity in Eastern China. Atmos. Chem. Phys., 22(4), 2191-2202. doi:10.5194/acp-22-2191-2022
[4] Srivastava, D., Xu, J., Liu, D., Vu, T. V., Shi, Z., & Harrison, R. M. 2021. Insight into PM2.5 sources by applying Positive Matrix factorization (PMF) at urban and rural sites of Beijing. Atmospheric Chemistry and Physics, 21(19), 14703–14724. doi:https://doi.org/10.5194/acp-21-14703-2021
[5] Xu, J., Harrison, R. M., Song, C., Hou, S., Wei, L., Fu, P., Li, H., Li, W., Shi, Z. 2022. PM2.5-bound silicon-containing secondary organic aerosols (Si-SOA) in Beijing ambient air. Chemosphere, 288, 132377. doi:https://doi.org/10.1016/j.chemosphere.2021.132377
[6] Tian, Y., Harrison, R. M., Feng, Y., Shi, Z., Liang, Y., Li, Y., Xue, Q., & Xu, J. 2021. Size-resolved source apportionment of particulate matter from a megacity in northern China based on one-year measurement of inorganic and organic components. Environ Pollut, 289, 117932. doi:10.1016/j.envpol.2021.117932
[7] Hou, S., Liu, D., Xu, J., Vu, T. V., Wu, X., Srivastava, D., Fu, P., Li, L., Sun, Y., Vlachou, A., Moschos, V., Salazar, G., Szidat, S., Prévôt, A. S. H., Harrison, R. M., Shi, Z. 2021. Source apportionment of carbonaceous aerosols in Beijing with radiocarbon and organic tracers: insight into the differences between urban and rural sites. Atmos. Chem. Phys., 21(10), 8273-8292. doi:10.5194/acp-21-8273-2021
[8] Shi, Z., Xu, J., Harrison, R.M., Bloss, W.J., Allan, J., Barratt, B., Coe, H., Doherty, R., Fu, P., Guan, D., Grimmond, S., Guo, X., He, K., Heard, D., Hewitt, N., Lee, J., Lewis, A., Li, J., Loh, M., Jones, R., Kalberer, M., Kelly, F., Miller, M., Monks, P., Netmitz, E., Palmer, P., Reeves, C., Shao, L., Sun, Z., Tao, S., Tong, S., Wang, X., Wild, O., Wu, Z., Xie, P., Zhang, Q., Zheng, M., Zhu, T., 2021. Atmospheric pollution and human health in a Chinese megacity (APHH-Beijing) programme: final report. Working Paper, doi: 10.25500/epapers.bham.00003381.
[9] Xu, J., Jia, C., Xu, H., Ji, D., Wang, C., Xiao, H., and He, J. 2021. Characteristics, sources, and health risks of PM2.5-bound trace elements in representative areas of Northern Zhejiang Province, China, Chemosphere, 272, 129632, https://doi.org/10.1016/j.chemosphere.2021.129632.
[10] Chen, K., Metcalfe, S., Yu, H., Xu, J., Xu, H., Ji, D., Xiao, H., Wang, C., and He, J. 2021. Characteristics and source attribution of PM2.5 during 2016 G20 Summit in Hangzhou: Efficacy of radical measures to reduce source emissions, Journal of Environmental Science, 106, 47-65.
[11] Xu, J., Liu, D., Wu, X., Vu, T. V., Zhang, Y., Fu, P., Sun, Y., Xu, W., Zheng, B., Harrison, R. M., & Shi, Z. 2021. Source apportionment of fine organic carbon at an urban site of Beijing using a chemical mass balance model. Atmos. Chem. Phys., 21(9), 7321-7341. doi:10.5194/acp-21-7321-2021
[12] Shi, Z., Song, C., Liu, B., Lu, G., Xu, J., Vu, T. V., Elliot, R. J. R., Li, W., Bloss, W. J., Harrison, R. M.2020. Abrupt but smaller than expected changes in surface air quality attributable to COVID-19 lockdowns, Science Advances, 7, eabd6696.
[13] Famiyeh, L., Chen, K., Xu, J., Sun, Y., Guo, Q., Wang, C., Lv, J., Tang, Y. T., Yu, H., Snape, C., He, J. 2021. A review on analysis methods, source identification, and cancer risk evaluation of atmospheric polycyclic aromatic hydrocarbons. Sci Total Environ, 789, 147741. doi:10.1016/j.scitotenv.2021.147741
[14] Campbell, S. J., Wolfer, K., Utinger, B., Westwood, J., Zhang, Z. H., Bukowiecki, N., Steimer, S. S., Vu, T. V., Xu, J., Straw, N., Thomson, S., Elzein, A., Sun, Y., Liu, D., Li, L., Fu, P., Lewis, A. C., Harrison, R. M., Bloss, W. J., Loh, M., Miller, M. R., Shi, Z., Kalberer, M. 2021. Atmospheric conditions and composition that influence PM2.5 oxidative potential in Beijing, China. Atmos. Chem. Phys., 21(7), 5549-5573. doi:10.5194/acp-21-5549-2021
[15] Bloss, W., Kramer, L., Crilley, L., Vu, T. V., Harrison, R. M., Shi, Z., Lee, J. D., Squires, F., Whalley, L. K., Slater, E., Woodward-Massey, R., Ye, C., Heard, D. E., Tong, S., Hou, S., Sun, Y., Xu, J. 2020. Wei, L., and Fu, P.: Insights into air pollution chemistry and sulphate formation from nitrous acid (HONO) measurements during haze events in Beijing, Faraday Discussions, 10.1039/D0FD00100G.
[16] Xu, J., Srivastava, D., Wu, X., Hou, S., Vu, T. V., Liu, D., Sun, Y., Vlachou, A., Moschos, V., Salazar, G., Szidat, S., Prevot, A., Fu, P., Harrison, R. M., and Shi, Z. 2020. An evaluation of source apportionment of fine OC and PM2.5 by multiple methods: APHH-Beijing campaigns as a case study, Faraday Discussions, 10.1039/D0FD00095G.
[17] Xu, J., Song, S., Harrison, R. M., Song, C., Wei, L., Zhang, Q., Sun, Y., Lei, L., Zhang, C., Yao, X., Chen, D., Li, W., Wu, M., Tian, H., Luo, L., Tong, S., Li, W., Wang, J., Shi, G., Huangfu, Y., Tian, Y., Ge, B., Su, S., Peng, C., Chen, Y., Yang, F., Mihajlidi-Zelić, A., Đorđević, D., Swift, S. J., Andrews, I., Hamilton, J. F., Sun, Y., Kramawijaya, A., Han, J., Saksakulkrai, S., Baldo, C., Hou, S., Zheng, F., Daellenbach, K. R., Yan, C., Liu, Y., Kulmala, M., Fu, P., and Shi, Z. 2020. An inter-laboratory comparison of aerosol in organic ion measurements by Ion Chromatography: implications for aerosol pH estimate, Atmospheric Measurement Techniques 2020, 13, 6325–6341.
[18] Xu, J., Jia, C., He, J., Xu, H., Tang, Y.-T., Ji, D., Yu, H., Xiao, H., and Wang, C., 2019. Biomass burning and fungal spores as sources of fine aerosols in Yangtze River Delta, China – Using multiple organic tracers to understand variability, correlations and origins. Environmental Pollution, 251, 155-165.
[19] Xu, J., He, J., Xu, H., Ji, D., Snape, C., Yu, H., Jia, C., Wang, C., and Gao, J. 2018. Simultaneous measurement of multiple organic tracers in fine aerosols from biomass burning and fungal spores by HPLC-MS/MS. RSC Advances, 8, 34136-34150.
[20] Liu, Z., Gao, W., Yu, Y., Hu, B., Xin, J., Sun, Y., Wang, L., Wang, G., Bi, X., Zhang, G., Xu, H., Cong, Z., He, J., Xu, J., and Wang, Y., 2018. Characteristics of PM2.5 mass concentrations and chemical species in urban and background areas of China: emerging results from the CARE-China network. Atmospheric Chemistry and Physics 18, 8849-8871.
[21] Xu, J., Xu, M., Snape, C., He, J., Behera, S. N., Xu, H., Ji, D., Wang, C., Yu, H., Xiao, H., Jiang, Y., Qi, B., and Du, R. 2017. Temporal and spatial variation in major ion chemistry and source identification of secondary inorganic aerosols in Northern Zhejiang Province, China. Chemosphere, 179, 316-330.
[22] Xu, J., Xu, H., Xiao, H., Tong, L., Snape, C. E., Wang, C., and He, J., 2017. Aerosol composition and sources during high and low pollution periods in Ningbo, China. Atmospheric Research 178-179, 559-569.
[23] Xu, J., Tai, X., Betha, R., He, J., and Balasubramanian, R. 2015. Comparison of physical and chemical properties of ambient aerosols during the 2009 haze and non-haze periods in Southeast Asia. Environmental Geochemistry and Health, 37, 831-841.
[24] Gao, J., O'Brien, J., Lai, F. Y., van Nuijs, A. L. N., He, J., Mueller, J. F., Xu, J., and Thai, P. K. 2015. Could wastewater analysis be a useful tool for China? — A review. Journal of Environmental Sciences, 27, 70-79.
[25] He, J., Chen, K., and Xu, J., 2017. Urban air pollution and control. In: Encyclopedia of Sustainable Technologies, (Ed. Abraham, M. A.), Elsevier, Oxford, 243-257. (book chapter)
教育经历
[1] 2008.09-- 2012.06
武汉大学>环境科学>学士
[2] 2012.10-- 2018.07
诺丁汉大学>化学与环境工程>博士
工作经历
[1] 2019.03-- 2021.03
伯明翰大学>博士后研究员
[2] 2021.03-- 2022.04
华威大学>研究员
[3] 2022.05至今
杭州市北京航空航天大学国际创新研究院>副教授
